5HMG
REFINEMENT OF THE INFLUENZA VIRUS HEMAGGLUTININ BY SIMULATED ANNEALING
Summary for 5HMG
Entry DOI | 10.2210/pdb5hmg/pdb |
Descriptor | Hemagglutinin HA1 chain, Hemagglutinin HA2 chain, alpha-D-mannopyranose-(1-4)-2-acetamido-2-deoxy-beta-D-glucopyranose-(1-4)-2-acetamido-2-deoxy-beta-D-glucopyranose, ... (6 entities in total) |
Functional Keywords | influenza virus hemagglutinin, viral protein |
Biological source | Influenza A virus (A/Aichi/2/1968(H3N2)) More |
Cellular location | Virion membrane ; Single-pass type I membrane protein : P03437 P03437 |
Total number of polymer chains | 6 |
Total formula weight | 174001.25 |
Authors | Weis, W.I.,Bruenger, A.T.,Skehel, J.J.,Wiley, D.C. (deposition date: 1989-09-11, release date: 1991-01-15, Last modification date: 2024-11-20) |
Primary citation | Weis, W.I.,Brunger, A.T.,Skehel, J.J.,Wiley, D.C. Refinement of the influenza virus hemagglutinin by simulated annealing. J.Mol.Biol., 212:737-761, 1990 Cited by PubMed Abstract: We have applied the method of simulated annealing to the refinement of the 3 A resolution crystal structure of the influenza virus hemagglutinin glycoprotein, using the program X-PLOR. Two different methods were introduced into X-PLOR to treat the non-crystallographic symmetry present in this and in other crystal structures. In the first, only the unique protomer atoms are refined; by application of the non-crystallographic symmetry operators to the protomer atoms, the X-ray structure factor derivatives are effectively averaged, and a non-bonded energy term models the interactions of the protomer with its neighbors in the oligomer without explicit refinement of the other protomers in the crystallographic asymmetric unit. In the second method, the entire asymmetric unit is refined, but an effective energy term is added to the empirical energy that restrains symmetry-related atomic positions to their average values after least-squares superposition. Several other modifications and additions were made to previously published X-PLOR protocols, including weighting of the X-ray terms, maintenance of the temperature of the molecular dynamics simulation, treatment of charged groups, changes in the values of certain empirical energy parameters, and the use of N-linked carbohydrate empirical energy parameters. The hemagglutinin refinement proceeded in several stages. An initial round of simulated annealing of the monomer was followed by rigid-body refinement of the 3-fold non-crystallographic symmetry axis position and a second round of monomer refinement. A third round was performed on the trimer using non-crystallographic symmetry restraints in all regions except those in lattice contacts showing obvious derivations from 3-fold symmetry. The refinement was completed with several rounds of conventional positional and isotropic temperature factor refinement needed to correct bad model geometry introduced by high-temperature molecular dynamics in regions of weak electron density. This structure was then used as the basis for refinement of three crystallographically isomorphous hemagglutinin structures, including complexes with the influenza virus receptor, sialic acid. Model geometry comparable to well-refined high-resolution structures was obtained with relatively little manual intervention, demonstrating the ability of simulated annealing refinement to produce highly idealized structures at moderate resolution. PubMed: 2329580DOI: 10.1016/0022-2836(90)90234-D PDB entries with the same primary citation |
Experimental method | X-RAY DIFFRACTION (3.2 Å) |
Structure validation
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